Are civilizations doomed? One possible explanation for the Fermi Paradox

Posted on April 28, 2019 by jiayu

It’s the age old question: are we alone in the universe? It’s a topic we began wrestling as children, well before we even had basic knowledge of the solar system and galaxies. But it seems that even after taking astronomy classes, the answer isn’t much clearer. Instead, we now have a conflict between probability, which says there absolutely should be other intelligent life, and evidence, which insists there is not. I’m sure you know about the lack of evidence. Let’s explain why it’s so probable that more life exists.

There are 400 billion stars in our milky way galaxy. 20 billion of these are like our sun, and 1/5 of these have a planet that, like our Earth, is in the habitable not-too-hot and not-too-cold zone. Even if 0.1% of these planets had life, this means there should be 1 million planets with life just in the milky way!

Another thing to consider is that Earth, aged 4 billion years, is about a third of the age of the milky way, aged 13 billion years. While it’s true that the early years of our galaxy were chaotic and ridden with explosions and impacts, it would’ve quieted down enough after 2 billion years for other life-forming planets to develop. It’s also reasonable to assume that we would have seen these life forms by now. These other planets and their life forms would have had much more time than humans have to develop their space travel technology. If their spaceships could sustain populations across generations and started spreading these ships out to other planets, it would take only 2 million years to colonize the galaxy. Compare this to the 13 billion years that the milky way has been around and recall that there are potentially 1 million life-sustaining planets in the milky way that could do this colonizing.

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Other life forms would have a head start. From Wait But Why

As I’m sure you know, we’ve seen no sign of this. But why haven’t we? That is the Fermi paradox, named after physicist Enrico Fermi. There is no answer, but plenty of proposed explanations. The most interesting one to me is the great filter, so we’ll be focusing on that one.

The Great Filter

A lot of things have to fall into place for a life-form to develop the ability to colonize its galaxy. Perhaps one of these steps is a great filter, or barrier that life must overcome. It’s a challenge posed, that life forms either pass it or they don’t. Here’s the scary thing: we don’t know where it is.

It’s possible the great filter was something in the past that we already made it through. Perhaps it was the evolution of eukaryotic cells, or forming life at all. Maybe it was moving from chimpanzee-level intelligence to human-level intelligence. If this is the case, that means we somehow overcame something that everybody else couldn’t–this would make our kind of life rarer than we predicted. This is also the more exciting possibility. This makes the future, and the galaxy, ours to explore.

Here’s the scarier option: that the great filter is in our future. That means there’s a chance we won’t overcome it. Perhaps it will be nuclear war or climate change or a freak gamma ray explosion. If this is the case, there must have been lots of life like us before, but something kept it from developing enough to spread through the galaxy. Maybe this is what happened to life-forms on the older planets. This is the scarier of the options–that something lies ahead that nobody else managed to move past.

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Are we doomed? Or did we unknowingly pass a great trial? Image from THE ANGRY UFOLOGIST

This is why philosopher Nick Bostrom says finding life on Mars would be devastating for us. If it’s simple life, it becomes less likely that the Great Filter is something already behind us. It would be even worse news if we found complex life on Mars–that would mean life more advanced than ours is not rare at all, and the Great Filter is still ahead of us.

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The Final (frontier) Post

Posted on April 28, 2019 by haivilo

Throughout the semester, I learned about things I had never thought of including the moons of others planets, tiny microbes living in extreme conditions, and astronomical objects here on Earth. Each of these topics and more helped me grasp the scope of the universe and the solar system we live in. There are so many things happening in the universe right now that amaze me still and I am excited to see what I can learn more about in the future.

Perhaps my next step in my astronomy career is looking outside our solar system and seeing how the stars and different galaxies work. Learning about these things could teach us so much about our own solar system and how it functions. Whether solar systems like ours are common or rare, or if life can develop in different ways puts our own lives into perspective and get a greater sense of the universe and its nuances. Overall, astro2110 has been a great learning experience and a stepping stone for my astronomy knowledge.

Image From Faxo
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The Fermi Paradox

Posted on April 28, 2019 by haivilo

One of the biggest questions in the universe is whether or not we are alone. The Fermi Paradox seeks to answer this question and try to make sense of our place amongst the cosmos.

The basis of the paradox is if a civilization had the right rocket technology and the will, they could colonize the galaxy in 10 million years. In the scope of the universe, this is a very short amount of time to colonize a whole galaxy. A study was done from the Kepler Space Telescope that found that one in five sun-like stars have an Earth like planet orbiting them. So, why havent they come here?

There are several “explanations” as to why we haven’t made contact with aliens based off of this statement. The first is because the technology to have feasible space travel does not exist, so colonizing of different planets couldnt happen in the first place. The second is that aliens never had the drive to colonize. Maybe they have the technology, but Earth isnt worth colonizing for some reason. Another explanation is that the intelligent life advanced recently and they just havent come yet. We could be the first advanced life form in the universe and none have developed anywhere else. Lastly, we could have already been visited, maybe when the Earth was still developing, so the aliens overlooked us. (Source) Either way, contact with aliens still has not been done, but we also need to answer the question of whether we want them to come or not?

Bill Nye gives his take on the subject and comes up with a possible solution to this paradox:

From Big Think on Youtube


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Reflections: A Year of Astronomical Study

Posted on April 27, 2019 by Sam Bianco
An artist’s conception of our solar system. Image Source: NASA Science

As my freshman year of college draws to a bitter sweet and slightly chaotic close, I’ve been doing some major thinking about about the events of the past school year. I fell in love with astronomy from the very first lecture I attended, way back in August of last year. While my first semester gave me a basic understanding of stars and galaxies in ASTR-1010, this semester taught me about the solar system. I came into this course with a good deal of astronomical knowledge already; however, I could never have imagined how much more I would learn about this fascinating field. I absolutely loved taking such an in-depth look at each of the planets, the Sun, and the solar system as a whole. The study of our own star system gave way to the examination of other solar systems, and then we got into questions that will bring on existential crises like “What is life?” and “Where are the aliens?” This class has encouraged me to look at the universe in whole new ways. I’ve learned that the space between cosmic objects is almost unfathomable. I’ve learned why Venus rotates in the wrong direction and that my zodiac sign will be completely different in a couple thousand years or so. I’ve learned that while we haven’t met any aliens yet, other life forms may exist somewhere in our own solar system. The list goes on and on.

Astronomy is a complex science; while we have figured out so much about our universe already, there is still work to be done. I hope that one day, we might be able to answer some of humanity’s most burning questions.

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String theory – the other way of interpreting our universe

Posted on April 27, 2019 by Yihao Yan
artistic interpretation of element string which may make up our universe, pic from medium

The string theory is a very interesting idea that propose another totally different way of thinking what made up our universe. Although this theory is very arguable because it can never be tested in our labs so that a lot of physicist do not like this theory, but it indeed gives a very unique prospective and interpretation about parallel universe and dimensions.

The theory proposes that everything in the universe is made of the tiny element called string. It is itself one dimension particle. String theory proposes a unique solution trying to figure out the ultimate equation of the universe, that equation that unifies all four major forces in the universe: gravity, strong nuclear force, weak nuclear force and electromagnetic. This is the equation that Einstein seemed for his whole life.

Before string theory, people think this equation does not exist because of the quantum physics. Modern quantum physics thinks that things happen in the quantum field can not be predicted. We can only predict the possibility of something happen in the quantum field. In other words, there are no equations related to quantum physics since everything is about probability.

Einstein believes that there must be an ultimate equation that explain everything from large scale to quantum physics. String theory provides one possible answer for seeking this equation. String theory proposes that every forces are generated because of specific particles. For example, the one that is responsible for gravity, also the special one, is called graviton. This is a theoretic particle that has never been found by human.

Other things that are very interesting about string theory is that it tries to explain the parallel universe by the idea of membrane. Basically our universe is like a membrane where there are a lot of other parallel universe. Only graviton can sometimes travel through membranes.

cross section of a quintic Calabi-Yau manifold, pic from wikipedia
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Speghettification

Posted on April 27, 2019 by peytonbrown4560

With a recent picture of a blackhole becoming the newest internet sensation I thought it might be neat to talk about my favorite word, spaghettification.

In class we’ve talked about tidal forces, that is the force differential between the close part and the far part to a gravitational source. On the small scale, such as Earth and its moon, it causes tides and the Moon tidally locked orbit. For those moons who have found themselves inside the Roche limit, these tidal forces can start to rip the moon apart and cause them to sucked into the planet. When the mass exerting the gravitational force becomes so large though the tidal forces start to get exaggerated.

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space man getting spaghettified

This is where spaghettification comes in. If we look at the equation for gravitational force, F=(GMm/r^2) it shows that the radius term grows much faster than the mass terms meaning that as things get closer the force of gravity ramps up pretty fast. If we were to say that a value was twice as big as another, for numbers like 1 or 2 the difference would be small between the numbers, but for larger numbers the difference between some integer factor of these numbers is much larger. So if we consider the incomprehensible size of a black hole the difference between a front of an object and the back of an object will have extreme tidal forces. These extreme tidal forces act similar to the Roche limit as far as ripping apart the object but much more interestingly. Since the tidal forces are so extreme, on an atom by atom bases one atom will be accelerating much faster than its neighbor. This causes the atoms to travel towards the black hole in a single file line one after another much akin to spaghetti noodles; therefore, this process is known as spaghettification.

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More on the Fermi Paradox

Posted on April 27, 2019 by Harrison Chen

For this blog post, I ventured onto YouTube to find a more detailed explanation of the Fermi Paradox. Although there we a video by celebrity scientist Bill Nye on YouTube, I ventured for a more scientific video done by Kurzgesagt – In a Nutshell.

The video introduced three categories of civilizations. A type one civilization would be able to access all of the energy on its home planet. Currently, we are only around 73% of the way towards a type one civilization. A type two civilization would be capable of harnessing of the energy of its home star. Lastly, a type three civilization is a civilization that would be able to control the whole galaxy and its energy. Technically, since the Milky Way contains billions of stars and there are possibly millions, if not billions planets in the Milky Way that sustain life, we should be able to see a type three civilization. In short, the video states that the Fermi Paradox the question of why haven’t we met this advanced alien civilization yet?

There are filters that may explain why we have not met such an alien civilization. Maybe it is much harder for life to form than we think. After all, the universe used to be a very hostile place. Although we passed this filter, we may be the first or one of the first civilizations to do so. Other filters lie ahead of the path we are going. Perhaps life on our level exists everywhere in the universe. However, filters such as nuclear war, climate change, or technological destruction may be filters that are inevitable. These filters may have annihilated other civilizations.  

Finally, the video explores the idea that there might be a type three civilization that goes around and destroys civilizations before they become technologically advanced. Although these theories might explain the Fermi Paradox, perhaps we are just alone. That would be a frightful thing, indeed. The video states that if we are alone, we HAVE to venture and explore the universe to keep the delicate flame of life alive.

Some more explanations
Image from imgur
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Celebrity Scientists

Posted on April 27, 2019 by Harrison Chen

For my last blog, I wanted to write about something that was somewhat related to astronomy: celebrity scientists. Specifically, I wanted my last blog to be why Bill Nye is not a scientist. He should not be having millions of followers or appearing at colleges and talk shows (not scientists should be creating a “brand” in my opinion). Bill Nye matters because of his impact on science and, specifically, astronomy. For example, he accompanied Trump’s nominee for NASA Administrator to “promote space exploration.” It’s obvious that he has a big impact on science  and astronomy, a very BAD impact.

First of all, Bill Nye lacks the qualifications for being a scientist. Bill Nye has a mechanical engineering degree. That’s it. He has no graduate degree and has not done any research to qualify for the title of scientist. Normally, to be called a scientist, one must obtain at least a PhD. The kids show that he hosted for many years did not delve into topics that require many years of scientific expertise and research. The information was mundane and often revolved around basic biology, chemistry, and physics. He is in no way qualified to even earn the title of scientist. The most well-known scientists are Isaac Newton, Albert Einstein and… Bill Nye? Surely we have been mislead.

Bill Nye is what I would call a celebrity scientist. He has a large following because of not only his entertainment value, but because of his political views. His Twitter is littered with political tweets, and he often appears on CNN and Fox News. Elite colleges and even world leaders (for example Canadian Prime Minister Justin Trudeau) even engage with him. He appeals to millennials and other young people who have terribly naive perspectives. When tweeting or appearing on shows, his views are rudimentary at best. Yes, we can all agree that climate change is a bad thing. However, the question is how we can best attempt to curb climate change without destroying economies and jobs that could, in some cases, lead to more people in poverty. What is required is a nuanced and practical solution. Switching to all renewables in the next twenty or thirty years, contrary to the minds of many college students and Bill Nye fans, is not in any way practical and is bound to have severe repercussions.

Bill Nye is not good for the scientific community. His job is to spark laughter and good feelings, not to spark serious scientific discussion. Although he may appear harmless, he is actually a leech that sucks out the scientific community to build his own brand.

Most of my information will be taken from this blog and this site.

Bill Nye and Justin Trudeau
From National Post
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Introduction to various spacecraft propulsion methods

Posted on April 27, 2019 by Yihao Yan
ion-accelerating engine, pic from wikipedia

Space propulsion is different from regular propulsion methods that deal with situations on the ground or in the air. It’s also different from launch propulsion which space propulsion methods exclusively deal with propulsion systems used in vacuum of space.

Before introducing different propulsion methods, there are couple of concepts that are really important related to the effectiveness of a propulsion system. The purpose of propulsion in the space is to change the velocity of a spacecraft. Since obviously that the more massive an object is, the harder to change its velocity, designers of spacecraft propulsion usually use the amount of change in momentum per unit of propellant consumed to compare the effectiveness. This is called specific impulse. It’s a different concept from the thrust which is the force moving a rocket through the air.

SpaceX’s Kestrel engine, pic from wikipedia

Essentially all spacecraft propulsion systems are reaction engines. These engines provides propulsion by generating chemical or physical reaction and expelling reaction mass. The most common engines are internal combustion heat engines. These kind of engines combust either liquid, solid or gaseous fuel with oxidizer within a combustion chamber. These type of engine needs a large mass of fuels. Rockets propelled by this kind of engine, such as monopropellant or bipropellant rocket, have relatively low specific impulse but high thrust.

The other kind of system, which is actually more suitable for traveling in the space, is electromagnetic propulsion engine. They don’t rely on the high temperature and fluid dynamics to accelerate the reaction mass, but rather accelerating the reaction mass directly by electromagnetic forces. The ion accelerating engine is the most common one among this type. These kind of engines are good that they usually carry little mass of fuels and they gain much greater specific impulse in the space.

electric propulsion engine in lab, NASA, pic from wikipedia
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Astrobiology, The Future.

Posted on April 27, 2019 by alfredprah

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Space Travel

I am still trying to decide whether my admiration for Elon Musk is because of his electric vehicles (S-3-X-Y) or his passion for space exploration. The topic of space exploration leads me to a scientific field I would like to talk about briefly, Astrobiology. Wikipedia defines Astrobiology as “an interdisciplinary scientific field concerned with the origins, early evolution, distribution, and future of life in the universe.” I am not an Astrobiologist but I do know that what is keeping professionals in the field awake at night is the question of whether extraterrestrial life exists, and if it does, how humans can detect it. To do this, Astrobiologists make use of molecular biology, biophysics, biochemistry, chemistry, astronomy, physical cosmology, exoplanetology and geology to investigate the possibility of life on other worlds. They also try to recognize biospheres that might be different from that on Earth.

Thanks to the use of high level automated systems for space missions, space exploration has become easier. According to Wikipedia, these high level automated systems “yield benefits such as lower cost, less human oversight, and ability to explore deeper in space which is usually restricted by long communications with human controllers.” How much progress have we made in determining whether extraterrestrial life exists? Ever since landing on the moon, Mars has been a focal point of modern space exploration. According to Aerospace.com, “Mars exploration is a long-term goal of the United States. NASA is on a journey to Mars, with a goal of sending humans to the Red Planet in the 2030s.” NASA and its partners have sent landers, orbiters, and rovers to help it increase its knowledge about the planet.

It is worth mentioning that only three countries have human space programs (China, Russia and the US). It costs a lot to have such a program! Additionally, there is more competition between these countries than is healthy. Even though the International Space Station (ISS) is a massive collaboration between five space agencies (Nasa, Roscosmos, Japan’s Jaxa, the pan-European agency ESA and the Canadian Space Agency), we have a powerful and resourceful country like China trying to ride solo. As a matter of fact, it is reported that “in 2006, Beijing reportedly tested lasers against US imaging satellites in what appeared to be an attempt to blind or damage them, and US lawmakers later banned cooperation between Nasa and China’s state agency.” But I am hopeful that the ISS is strong and resourceful enough to embark on many more groundbreaking missions.

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